diseño de zapatas
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DISEÑO DE UNA ZAPATA AISLADA Diseñar la zapata mostrada en la fig: Si la Columna de 70 x 50 lleva 10 fierros de 1" y transmite las cargas PD = 180 tn y PL = 100 tn . La capacidad portante admisible del suelo es qa = 2.5 kg/cm2 ; ademas fy = 4200kg/cm2 , fy = 280 kg/cm2 en la columna y fc = 210 kg/cm2 en la zapata
DATOS:
Zapata Otros Suelof ' c = 210 kg/cm² S/C = 550 kg/m² Df = 1.4 m
Columna PD = 180 Tn 1700 kg/m³f ' c = 280 kg/cm² PL = 100 Tn qa = 2.50 kg/cm²
b = 50 cm db = 2.54 cmt = 70 cm Acero Lv = 150 cm
f y = 4200 kg/cm²
MD,ML
PD, PL
Ld = 58.89 cmht
Tomar Ld = 58.89 cm Df Lv
(Del problema se emplean varillas de Ø1") Øb ( 1") = 2.54 cmr.e. = 7.50 cm (recubrimiento) hchc = 68.93 cm
Tomar hc = 70.00 cm hc = Ld + r.e + Øb Tht = Df - hc
ht = 70.00 cm
Bqm = 2.16 kg/cm²
T
Azap = 129,629.63 cm² Donde:T = 370.00 cm P = Carga de servicioB = 350.00 cm Lv = Volados iguales sin
excentricidad
2.- DETERMINACIÓN DE LA REACCIÓN AMPLIFICADA ( qmu )
Donde:3.26 kg/cm2 Pu = Carga Ultima
3.- VERIFICACION POR CORTE ( Ø = 0.85 )Por Flexión:
Lv = 150.00 cmr.e = 7.50 cm
Øb ( 3/4") = 1.91 cm (Suponiendo varillas Ø3/4")d = 60.59 cm ( d = hc - Øb - r.e. )
Vdu = 101,975.73 kgØ = 0.85 (Coef. De reduccion por corte)
Vc = 162,875.03 kg
2 =
1.- DIMENSIONAMIENTO DE LA ZAPATA Cálculo del peralte de la zapata (hc )
Cálculo de la presión neta del suelo ( qm )
Cálculo del área de la zapata ( Az )b
tt
Reemplazo los valores que tenemos:
= 1.4 x 180000 + 1.7 x 100000 350 x 370
=
Ld= 0 . 08 .d b . F y
√f'c
Azap=Pqm
T=√Az+( t1-t2 )
2
S=√Az−( t1-t2 )
2
qm=qa−g ht−gchc-s/c
Wnu=PuAzap
Lv=T−t2
Vdu=( WnuxB)(Lv-d )
Vc=0 .53√f'c bdØVc³ Vdu
ØVc = 138,443.78 kgØVc > Vdu OK!
Vu = 374,938.21 kg
= 2m +2nbo = 482.36
Vc = 555,426.41 kg Vc= 448,939.43 KgØVc = 472,112.45 kg ØVc= 381,598.52 Kg
ØVc > Vdu OK!1.4
lado menor columna ( b )
m = t + d m = 130.59n = t + b n = 110.59bo = 2*m + 2*nVu = Øvc OK ! Vu = 448,939.43
Øvc = 381,598.52
4.- CALCULO DEL REFUERZO LONGITUDINAL ( Ø = 0.90 )Dirección Mayor:
Lv = 150.00 cm ree = 7.50
Mu = 12,831,081.08 kg-cm 1.91
B = 350.00
d = 60.59a = 3.89 (Valor Asumido)
As = 57.88 2.85As mín = 0.0018 * B * d a = 3.89 # Varilla ( n ) = 20As > As mín OK !! 17.53
As = 57.88 20 Ø 3/4" @ 17.53Aøb
2.85 Aøb # Varilla ( n ) = 15
23.79 n -1 As mín = 44.1 15 Ø 3/4" @ 23.79
As > As mín OK !!Dirección Menor:
B T = 370 ree = 7.50
As mín = 0.0018 * B * d B = 350 1.91
As > As mín OK !! d = 60.59a = 5.01 (Valor Asumido)
Aøb 2.85# Varilla ( n ) = 21
Aøb 17.65As transv = 61.19 21 Ø 3/4" @ 17.65
n -1 2.85# Varilla ( n ) = 16
23.54Asmin = 46.62 16 Ø 3/4" @ 23.54
As transv > As mín OK !!Longitud de desarrollo en Traccion ( Ld )
< Lv1
Por Punzonamiento:
bo = 2 x ( t + d ) + 2 x ( b + d )
(perimetro de los planos de falla)
Vc = 0.27 * 2 + 4 * f 'c^.5 * bo * d = 1.06 * f 'c^.5 * bo * dc
c = lado mayor columna ( t )
Vu = 1.1 x f'c x bo x d
Øb ( 3/4") =
Aøb ( 3/4" ) =
Espaciam =
# Varilla ( n ) = As Aøb ( 3/4" ) =
Espaciam = B - 2*r.e - Øb Espaciam =
As tranv = As * T
Øb ( 3/4") =
Aøb ( 3/4" ) =# Varilla ( n ) = As
Espaciam =
Espaciam = B - 2*r.e - ØbAøb ( 3/4" ) =
Espaciam =
ld = Øb * fy *
d/2
d/2
m = t+d
n =
b+
d
t
b
T
B
c =
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Vu=Pu-Wnu x mnVc=0 . 27[2+
4
β c]√ f ' c bo d
β c=DmayorDmenor ,β c≤2→Vc=1. 06√ f ' c bo d
Vu≤ØVc; Ø=0 .85
Mu=( Wnu x B)Lv2
2
As=Mu
ØFy(d-a2
)
a=As .Fy0 .85f'cb
ØbLv1 = Lv - r.e.e
La Zapata es rectangular se debe compartir el Refuerzo adecuadamente de la siguiente manera:
1.00 Øb (3/4") = 1.91 8.500.80 r.e.e = 7.50 ktr = 01.00 fy = 4200
Lado menor Zapata 1.00 f'c = 210 2.5 q = ( C+kt r )/ ØbAøb
Longitud de desarrollo en tracción q= 10.41 Aøb
Lv1 = 142.50 q >= 2.5 ,PONER 2.5 !! n -1 Ld = 50.04 q < 2.5 ,PONER q !!
Ld < Lv1 OK !!Espaciamiento del Refuerzo
Asc = 61.19
17.65 OK !!3 x h 210 cm
5.- VERIFICACION DE LA CONEXIÓN COLUMNA - ZAPATA ( Ø = 0.70 )
Para la sección A colum = 70*50 = 3500 cm² ( COLUMNA )
Ø * 0.85 * f 'c * As1 Pu = 422000 # Varilla ( n ) = 6A colum = b *t A1 = 3500Pu < ( Ø * 0.85 * f 'c * A1) Ø * 0.85 * f 'c * A1 = 583100AøbAs mín = 0.005 * A1 Pu < Ø * 0.85 * f 'c * A1 OK !!
Aøb As mín = 17.50As col. > As mín OK !! Aøb ( 3/4" ) = 2.85
USAR As1 = 17.50As col > As min OK !!
Para la sección A zapata = 350*370 = 129500 cm² ( ZAPATA )
Pu < Ø x 0.85 x f 'c x A2/A1 x A1 Pu = 422000A1 = 3500 A2/A1 = ###A2 = 129500
Ø x 0.85 x f 'c x A2/A1 x A1 = 874650 OK !!
3.54 * f 'c^.5 * C + Kr
Asc = 2 * Astrv ( + 1 ) = C =
= = Lado mayor Zapata =
=
# Varilla ( n ) = As
Espaciam = B - 2*r.e.e - Øb
45 cm
# Varilla = As1
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Página 4 de 19
DISEÑO DE ZAPATA COMBINADA
Diseñar la zapata combinada que soportara las columnas mostradas en la figura. La capacidad portante del suelo es qa = 2 kg/cm2Considere fy = 4200 kg/cm2 y f'c = 210 kg/cm2 para la cimentacion . F'c = 280 kg/cm2 en las columnas.
COL: SECCION REF. PD PLC1 50 50 9 Ø 3/4" 20 15 PL1 PL2C2 40 50 9 Ø 3/4" 40 24
b x t Acero tn tn S/C = 500 kg/m²
h t = 101.00
hc = 54.00
4.55 m 1.40
Df = 1.60 m Otros Columna Zapata1800 kg/m3 S/C = 500 kg/m² f ' c = ### kg/cm² f ' c = 175 kg/cm²
qa = 2.00 kg/cm2 d(eje-eje)= 4.3 m f y = 4200 kg/cm²
1.- DIMENSIONAMIENTO DE LA ZAPATA ( Az = S*T )
Øb ( 3/4" ) = 1.91 cm raiz(f 'c) 0.08 x Øb x fy / f ´c = 49 cm
.004*øb*fy = 32 cm OK !!ld >= 0.004 * øb * fy
Tomar ld = 49 cm Longitud de desarrollo en compresión
hc = ld + r.e + Øb r.e = 7.50 cmhm = Df - hc h c = 59.00 cm
h t = 101.00 cm
Tomar ht = 101.00 cm
qm = 1.63 kg/cm²
Cálculo del área de la zapata ( Az )
Ps1 = P1D + P1L P1s = 35 Tn P2s = 64 TnPs2 = P2D + P2LRs = P1s + P2s
20 20 30 30
Rs * Xo = P1s* t1/2 + P2s * 455Xo = ??
455.00 170.00 cm
Rs = 99 TnP1s = 35 Tn
Lz / 2 P2s = 64 Tne = Lz / 2 - Xo Rs = 99 TnLz / 6 Xo = 301.21 cme < Lz/6
Lz = 625.00 cm Lz Lz Lz / 2 = 312.50 cm
e = 11.29 cmLz / 6= 104 cm
m
m =
Cálculo del peralte de la zapata (hc )
ld = 0.08 * Øb * Fy
Cálculo de la presión neta del suelo ( qm )
qm = qa - m*hm -γc*hc - s/c
Mo = 0
q1,2 = Rs * 1 ± 6 * e
1 2
t1 t2
b1 b2
0Xo
+
X
X
Página 5 de 19
L = 602 cm
B = 101 cmB =(P1s +P2s) tomamos B = 85 cm
qn x L
Como S/C = 500 kg/cm², Verificamos las presiones del suelo - ADICIONAL ( q 1,2 )
Ps1 = P1D + 50%P1LPs2 = P2D + P2L P1s = 27.5 Tn P2s = 64 TnR1s = P1s + P2s
20 20 30 30
R1s * Xo = P1s* t1/2 + P2s * 455Xo = ??
455.00 170.00 cm
e = Xo1 - Xo P1s = 27.5 Tn R1s = 91.5 TnP2s = 64 Tn
q = Ps + Mc = Ps + Ps x e R1s = 91.5 TnXo1 = 324.26 cm e = 23.05 cm 1454767.9167 cm4
q = 44.56 kg/cm2 AUMENTAMOS EL ANCHO Bq < qm cumple " OK "q > qm no cumple "AUMENTAMOS EL ANCHO B"
Aumentamos el Ancho hc = 150 cmUn nuevo calculo
Ps = 91500 kg q = 1.41 OK !!e = 23.05 cmB = 265 cm
74531250
Ps1 = P1D + P1LPs2 = P2D + 50%P2L P1s = 35 Tn P2s = 52 TnR2s = P1s + P2s
20 20 30 30
R2s * Xo = P1s* t1/2 + P2s * 455Xo = ??
470.00 1.40 mLz / 2e2 = Lz / 2 - Xo P1s = 35 Tn R2s = 87 TnLz / 6 P2s = 52 Tne2 < Lz/6 R2s = 87 Tn
Xo = 288.97 cm B e = 12.24 cm 74531250 cm4
q > qm no cumple "AUMENTAMOS EL ANCHO B" q = 1.62 kg/cm2 OK !!q < qm cumple " OK "
2.- DISEÑO EN SENTIDO LONGITUDINAL P1s = 35 Tn P2s = 64 Tn
qmqn = P1s + P2s 0.2 m 4.50 m 140.00 m
Azqn = 6205.7293 kg/m² ( No amplificada )
Por unidad de Longitudqm = qm1*B Por Unidad de LONGITUD qm = 6205.73 kg/m
L = 2 x Xo
Mo = 0
I = ( B x L^3 )/12 Az I Az I I =
I =
Mo = 0
q1,2 = R2s * 1 ± 6 * e2 I = ( B x L^3 )/12I =
Cálculo de la presión neta por unidad de longitud ( qm )
+
0Xo
+
0Xo
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cm4
cm3
Página 6 de 19
V 55311.978 kg1241.15
+ 1.6297 m-
-8688.022 kg-33758.85
kg - m-27385.1
M
-+
124.12 kg - m
6081.62 kg - m
Encontramos el diagrama de fuerzas cortantes verificamos el corte por Flexion: d = -ree + hc 1.50 x Vu = 67050.27 kg ya que : F = ( 1.4 x D + 1.7 x L )/( D + L )
d = 141.00 cmVu = Vmax - qn x ( b2/2 + d ) = 44700.18 kg F = 1.5
Aporte del Concreto : Vc = 0.53 x f ' c x b x d = 261975.02 kg Vu < 0 x Vc Cumple !!
0.85 x Vc = 222678.77 kg OK !! Aumentamos el Peralte a h = 150 cm. d = h- ree
d = ### cmVu = Vmax - qn x ( b2/2 + d ) = 44700.18 kg
Aporte del Concreto : Vc = 0.53 x f ' c x b x d = 261975.02 kg Vu < 0 x Vc Cumple !!
0.85 x Vc = 222678.77 kg Vu < O x Vc CUMPLE !!
VERIFICACION POR CORTE ( Ø = 0.85 )
COLUMNA EXTERIOR : COLUMNA INTERIOR :Vu = 1.50 x ( Pu - qnu x m x n ) = 31075.805 kg Vu = 1.50 x ( Pu - qnu x m x n ) = 75697.49 kgVu = 31075.80549 kg Vu = 75697.49 kg
El aporte del Concreto : 1 El aporte del Concreto : 1.25
422 cm 493 cm
Vc = 1396870.757 kg Vc = 1412870 kgØVc = 1187340.143 kg ØVc = 1200939 kg
Vc = 1.10 x f 'c x bo x d = 948492.49 kg Vc = 1.10 x f 'c x bo x d = ### kg
Vc = 948492.49 kg Vc = 1106949 kgØVc = 806218.62 kg ØVc = 940906.79 kg
Vu < ØVc CUMPLE !! Vu < ØVc CUMPLE !!
c = c =
bo = ( b + ,5*d ) + 2x( t + d ) = bo = ( b + 0,5*d ) + 2x( t + d ) =
Vc = 0.27 x 2 + 4 x f 'c x bo x d Vc = 0.27 x 2 + 4 x f 'c x bo x d c c
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Página 7 de 19
4.- CALCULO DEL REFUERZO EN EL TRAMO CENTRAL
X x qn - P1 = 0
X =P1
X = 5.64 Mu =qn x X^2 _ P1 x X
Mu = -91699.11 kg - mqn 2
Calculo de As :Mu = 91699.11 kg - m
As = Mu / ( Ø * fy * ( d - a/2 )) B = 265 r .e .e = 8 db =1.91a = As * fy / ( 0.85 * f 'c * B ) d = 141
a = 2.77 (Valor Asumido)As = 26.06 2.85
As mín = 0.0018 * B * d a = 2.78 # Varilla ( n ) = 9As > As mín OK !! 31Aøb As = 26.06 9 Ø 3/4" @ 31
Aøb 2.85 Varilla ( n ) = 24
n -1 11As mín = 67.26 24 Ø 3/4" @ 11
As > As mínASUMIR As mín !!
5.- CALCULO DEL REFUERZO POR DEBAJO DE LA COLUMNA INTERIOR
Mu =qn x ( L )^2
Mu = 6081.61 kg - m2L = 1.91 m 1.4
Calculo de As :Mu = 6081.61 kg - m
As = Mu / ( Ø * fy * ( d - a/2 )) B = 265 r .e .e = 8 db =1.91a = As * fy / ( 0.85 * f 'c * B ) d = 141
a = 0.18 (Valor Asumido)As = 1.71 2.85
As mín = 0.0018 * B * d a = 0.18 # Varilla ( n ) = 1As > As mín OK !! #DIV/0!Aøb As = 1.71 1 Ø 3/4" @ #DIV/0!
Aøb 2.85 Varilla ( n ) = 25
n -1 10As mín = 71.55 25 Ø 3/4" @ 10
As > As mín ASUMIR As mín !!
Diseñar en sentido transversal a cada columna le corresponde una porcion de Zapata
d/2 d/2 d/2
1.205 1.91
Aøb ( 3/4" ) =
Espaciam =
# Varilla ( n ) = AsAøb ( 3/4" ) =
Espaciam = B - 2*r.e - ØbEspaciam =
Aøb ( 3/4" ) =
Espaciam =
# Varilla ( n ) = AsAøb ( 3/4" ) =
Espaciam = B - 2*r.e - ØbEspaciam =
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Página 8 de 19
ZAPATA EXTERIOR ZAPATA INTERIOR
Página 9 de 19
qn =Pu
qn = 1.68 kg/cm2 qn =Pu
qn = 1.91 kg/cm2Az Az
Mu =qnu x B x (L^2)
Mu = 1169724 Mu =qnu x B x (L^2)
Mu = ###2 2
B = 120.5 r .e .e = 8 db = 1.59 B = 191 r .e .e = 8 db = 1.59d = 141 d = 141a = 0.52 (Valor Asumido) a = 0.64 (Valor Asumido)
As = 2.20 As = 4.34a = 0.52 a = 0.64
As = 2.2 2.85 As = 4.34 2.85# Varilla ( n ) = 11 # Varilla ( n ) = 18
10.00 10.00As mín = 32.54 11 Ø 3/4" @ 10 As mín = 51.57 ### Ø 3/4" @ 10
6.- VERIFICACION DE LA CONEXIÓN ZAPATA - COLUMNA( Ø = 0.70 )
Para la sección A columna = 50*50 = 2500 cm² ( COLUMNA )
Ø * 0.85 * f 'c * As1 Pu = 53500A colum = b *t A1 = 2500Pu < ( Ø * 0.85 * f 'c * A1) Ø * 0.85 * f 'c * A1 = 312375 As mín = 12.50As mín = 0.005 * A1
Pu < Ø * 0.85 * f 'c * A1 CUMPLE !! As col > As min OK !! AøbAs col. > As mín OK !!
Para la sección B columna = 40*50 = 2000 cm² ( COLUMNA )
Ø * 0.85 * f 'c * As1 Pu = 96800A colum = b *t A1 = 2000Pu < ( Ø * 0.85 * f 'c * A1) Ø * 0.85 * f 'c * A1 = 249900 As mín = 10.00As mín = 0.005 * A1
Pu < Ø * 0.85 * f 'c * A1 CUMPLE !! As col > As min OK !! AøbAs col. > As mín OK !! Detalle de refuerzos en la Zapata Combinada verificamos primero el espaciamiento maximo
Espaciamiento del Refuerzo
45 cm450 OK !!
3 x h = 450 cm
d/2 d/2 d/2
Longitud de desarrollo en Traccion ( Ld )
< Lv1
Øb Ld = 71 Ld1 = 46Lv1 = Lv - r.e.e
La Zapata es rectangular se debe compartir el Refuerzo adecuadamente de la siguiente manera:
Øb (3/4") = 1.911.00 Øb (5/8") = 1.59 6.50 2.5 q = ( C+kt r )/ Øb0.80 r.e.e = 7.50 ktr = 0 q= 8.41
Lado menor Zapata 1.00 fy = 42001.30 f'c = ### q >= 2.5 ,PONER 2.5 !!
Aøb 1.00 q < 2.5 ,PONER q !! Longitud de desarrollo en tracción
n -1Lv1 = 132.50 Ld < Lv1 OK !!
Calculo del refuerzo minimo : Ld = 71.26As mín = 71.55 Refuerzo montaje en forma de Garrido
2.85 Ø 3/8" para refuerzo principal Ø =< 3/4"# Varilla ( n ) = 25 Ø 1/2" para refuerzo principal Ø > 3/4"
10.00 con espaciamiento maximo de 45 cm.25 Ø 3/4" @ 10 0.2
Aøb ( 3/4" ) = Aøb ( 3/4" ) =
Espaciam = Espaciam =
# Varilla = As1
# Varilla = As1
ld = Øb * fy * 3.54 * f 'c^.5 * C + Kr
Asc = 2 * Astrv ( + 1 ) = C = = Lado mayor Zapata =
=
# Varilla ( n ) = As = =
Espaciam = B - 2*r.e.e - Øb
Aøb ( 3/4" ) =
Espaciam =
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11 Ø 3/4"@ 10cm 25 Ø 3/4"@ 10cm
24 Ø3/4"@ 11cm
18 Ø 3/4"@ 10cm
Página 10 de 19
DISEÑO DE ZAPATA CONECTADA
Diseñar la zapata conectada que soportara las columnas mostradas en la figura . La capacidad portante admisible del suelo es qa = 2.0 kg/cm2 . Considere Fy = 4200 kg/cm2 , f'c = 175 kg/cm2 para la cimentacion
DATOS:Zapata Acero
f ' c = 175 kg/cm² f y = 4200 kg/cm² S/C = 500 kg/m²Columna Suelo
f ' c = 210 kg/cm² Df = 1.60 m Lc = 550 cmb1 = 50 cm 1800 kg/m³ db = 1.91 cmt1 = 50 cm 2400 kg/m³b2 = 40 cm qa = 2.00 kg/cm²t2 = 50 cm db = 1.91 cm
COL SECCION REFUERZO PD (tn) PL (tn)1 50 50 9 Ø 3/4" 50 302 40 50 9 Ø 3/4" 40 24
1.- DIMENSIONAMIENTO DE LA ZAPATA Y VIGA DE CIMENTACION
48.51 cm hc = Ld + r.ee + ØbLd = 49 hm = Df - hc
ld >= 0.004 * øb * fy 32.09 cmLd = 32
Cálculo del peralte de la zapata (hc )hc = 59
ht = 101
Cálculo de la presión neta del suelo ( qm )
1.63
57
9249.49
9249.49
Az =Ps
Az =P1 + P' 2
= 54868.437 cm2qn qn
A = 2 x( b )^2 = 54868.44 b = 166 cm
nuevo e =b - t
e = 58P'1 = 9431
2 2 P'2 = 54980A = 2 x( b )^2 = 54980 b = 166
b= 165 tomamos
t=2b t= 330
m =c =
ZAPATA EXTERIOR:
qn = qa - m*hm - gc*hc - s/c
CALCULO DE P'2 : Tanteo e =
Tomamos b = 165 cm -----> A = 165 x 330 e = 57 cm
X
Ld0.08xdbxfy f 'c=
Ld = 0.08x1,91x4200/(175^(1/2)) =
Ld >= 0.004x1.91x4200 =
cm
cm
cm
qn = 2.4-(1800xE^-06)x(101)-(2400xE^06)x(59)-(500xE^04) =
qn =
cmhc = Ld + 10 =
ht = Df - hc =
kg/cm2
( PD + PL ) x e Lc - e
P'2 = =P1xe L =
( 50 + 30 ) x 1000 x 57 550 - 57=
X
==
kg
cm
P'2 =
Página 11 de 19
49 hc = Ld + r.ee + ØbLd = 49 cm hm = Df - hc
ld >= 0.004 * øb * fy 32 cmLd = 32
Cálculo del peralte de la zapata (hc )hc = 60
ht = 100
Cálculo de la presión neta del suelo ( qm )
2.00
71
9486
9486.00
Az =Ps
Az =P2 + P' 2
= 36743 cm2qn qn
A = ( b )^2 = 36743.00 b = 192 usamos b = 155 cm
nuevo e =b - t
e = 71P'1 = 9486
2 2 P'2 = 44743A = 2 x( b )^2 = 44743 b = 150
b = 150 A2 = ( 150 x 150 )
VIGAS DE CIMENTACION
h =Lc
=550
79 SECCION
7 7 50 80
b = P1
b = 4731 x Lc
DISEÑO DE LA VIGA DE CONEXIÓN
9.6 kg/m Mu = P' 2 x L + Wv x ( L^2 )/2= 7250000Mu = 7250000 kg-cm
1.91 ree = 7.50
As = Mu / ( Ø * fy * ( d - a/2 )) B = 50a = As x fy / ( 0.85 x f 'c x b ) d = 79.00As mín = 0.8 x (f ' c ^0.5) x B * d/ fy a = 5.00 (Valor Asumido)As > As mín OK !! As = 25.07 2.54
a = 14.16 # Varilla ( n ) = 11 Aøb 3
As = 26.67 11 Ø 1" @ 3 n -1
ZAPATA EXTERIOR:
qn = qa - m*hm - gc*hc - s/c
CALCULO DE P'2 : Tanteo e =
Wv = b x h x c =
Øb ( 3/4") =
Aøb ( 1" ) =# Varilla ( n ) = As
Espaciam =Espaciam = B - 2*r.e - Øb
Ld0.08xdbxfy f 'c=
Ld = 0.08x1.91x4200/(175^(1/2)) =
Ld >= 0.004x1.91x4200 =
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qn = 2.4-(1700xE^-06)x(120)-(2400xE-06)x(60)-(500xE-04) =
qn =
cmhc = Ld + 10 =
ht = Df - hc =
kg/cm2
( PD + PL ) x e Lc - e
P'2 = =P1xe L =
( 40 + 24 ) x 1000 x 50 550 - 50= =
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Página 12 de 19
As mín = 9.95 11 Ø 1" @ 3
As > Asmin OK !!
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VERIFICACION POR CORTE APORTE DEL CONCRETO
Vu = P' 2 + Wv x L Vu = 21982 KG Vc = 0.53 x (f ' c ^0.5) x b x d = 23540 L Vu < Ø Vc OK !!
DISEÑO DE LA ZAPATA EXTERIOR
ZAPATA EXTERIOR ZAPATA INTERIOR
qn =Pu
qn = #DIV/0! kg/cm2 qn =Pu
#DIV/0!Az Az
Mu =qnu x B x (L^2)
Mu = #DIV/0! Mu =qnu x B x (L^2)
2 2L = 100 r .e .e =
B = 150 r .e .e = 7.5 B = 250d = 41 db = 1.59 d = 51a = 5.00 (Valor Asumido) a = 5 ( Valor Asumido )
As = #DIV/0! As = #DIV/0!a = #DIV/0! a = #DIV/0!
As = #DIV/0! 1.98 As = #DIV/0!# Varilla ( n ) = #DIV/0! #Varilla n = 14
#DIV/0! Espaciam. = 17.88As mín = 13.5 Asmin = 27
### Ø 5/8" @ #DIV/0! 14 Ø 5/8" @
6.- VERIFICACION DE LA CONEXIÓN ZAPATA - COLUMNA( Ø = 0.70 )
Columna ExteriorPara la sección A columna = 50 x 50 = 2500 cm² ( COLUMNA )
Ø * 0.85 * f 'c * As1 Pu = 121000 # Varilla ( n ) =A colum = b *t A1 = 2500Pu < ( Ø * 0.85 * f 'c * A1) Ø * 0.85 * f 'c * A1 = 312375As mín = 0.005 * A1
Pu < Ø * 0.85 * f 'c * A1 OK !! AøbAs col. > As mín OK !! As mín = 12.50
Aøb ( 3/4" ) = 2.85USAR : As1 = 12.50
Columna Interior As col > As min OK !!Para la sección B columna = 50 x 50 = 2500 cm² ( COLUMNA )
Pu = 96800Ø * 0.85 * f 'c * As1 A1 = 2000A colum = b *t Ø * 0.85 * f 'c * A1 = 249900 # Varilla ( n ) =Pu < ( Ø * 0.85 * f 'c * A1) Aøb ( 3/4" ) =As mín = 0.005 * A1 Pu < Ø * 0.85 * f 'c * A1 USAR : As1 =
OK !! Aøb As mín = 10.00As col. > As mín OK !! As col > As min OK !!
Longitud de desarrollo en Traccion ( Ld )
< Lv1
ØbLv1 = Lv - r.e.e
Aøb ( 5/8" ) =
Espaciam =
# Varilla = As1
# Varilla = As1
ld = Øb * fy * 3.54 * f 'c^.5 * C + Kr
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Página 14 de 19
La Zapata es rectangular se debe compartir el Refuerzo adecuadamente de la siguiente manera:
1.00 Øb (5/8") = 1.59 8.500.80 r.e.e = 7.50 ktr = 01.00 fy = 4200
Lado menor Zapata 1.00 f'c = 175 2.5 q = ( C+kt r )/ ØbAøb
Longitud de desarrollo en tracción q= Aøb
Lv1 = 38.13 q >= 2.5 ,PONER 2.5 !! n -1 Ld = 46 q < 2.5 ,PONER q !!
Ld < Lv1 AUMENTAR EL T !!Espaciamiento del Refuerzo
45 cmAs1 = OK !!
3 x h 0 cm
d/2d/2
Asc = 2 * Astrv ( + 1 ) = C =
= = Lado mayor Zapata =
=
# Varilla ( n ) = As
Espaciam = B - 2*r.e.e - Øb
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>
12 Ø 5/8"@ 12cm
14 Ø 5/8"@ 22cm
6 Ø 1"@ 7cm
14 Ø 5/8"@ 18cm
Página 15 de 19
Página 16 de 19
33
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#DIV/0!
8
( Valor Asumido )
18
4
42.8510.00
OK !!
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Página 19 de 19
8.50
q = ( C+kt r )/ Øb
10.09
q >= 2.5 ,PONER 2.5 !! q < 2.5 ,PONER q !!
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